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Experimental Study and Modeling of the Effect of Phosphorus-Containing Compounds on Premixed Atmospheric Methane-Oxygen Flame Structure and Propagation Velocity.


pdf icon Experimental Study and Modeling of the Effect of Phosphorus-Containing Compounds on Premixed Atmospheric Methane-Oxygen Flame Structure and Propagation Velocity. (331 K)
Korobeinichev, O. P.; Mamaev, A.; Sokolov, V.; Bolshova, T. A.; Shvartsberg, V. M.; Zakharov, L.; Kudryavtsev, I. Y.

Halon Options Technical Working Conference. Proceedings. HOTWC 2001. Sponsored by: University of New Mexico, Fire Suppression Systems Assoc., Fire and Safety Group, GlobeTech, Inc., Halon Alternative Research Corp., Hughes Associates, Inc., Kidde plc., Modular Protection, Corp., Next Generation Fire Suppression Technology Program, Sandia National Laboratories, Summit Environmental Corp., Inc. and 3M Specialty Materials. April 24-26, 2001, Albuquerque, NM, Daniels, B. L.; Cole, D. G., Editor(s)(s), 173-186 pp, 2001.

Available from:

For more information contact: Center for Global Environmental Technologies, New Mexico Engineering Research Institute, University of New Mexico, 901 University Blvd., SE, Albuquerque, NM 87106-4339 USA.
Telephone: 505-272-7250,
Fax: 505-272-7203. WEB: http://nmeri.unm.edu/cget/confinfo.htm

Keywords:

halon alternatives; fire protection; flame structure; phosphorus; premixed flames; propagation velocity; halons